Title :
Microwave impedance control over a ferrite boundary layer
Author :
How, Hoton ; Vittoria, Carmine
Author_Institution :
Hotech Inc., Belmont, MA, USA
fDate :
3/1/2005 12:00:00 AM
Abstract :
We simulated microwave far-field radiation by using a coaxial cable, inside which a ferrite layer with a ground plane was loaded. The ferrite layer is magnetically biased near ferrimagnetic resonance by a permanent magnet generating a global bias magnetic field inside the ferrite layer. In addition, a magnetic bias coil near the ferrite layer generates a second dc bias magnetic field so as to locally tune the permeability of the ferrite layer. By observing the frequency change in the resonant modes of the cavity formed by the coaxial cable, we can determine the permeability of the ferrite layer. Calculations compare nicely with experiments.
Keywords :
cavity resonators; coaxial cables; ferrimagnetic resonance; ferrite devices; magnetic fields; magnetic permeability; microwave propagation; coaxial cable; dc bias magnetic field; ferrite boundary layer; ferrite device; global bias magnetic field; magnetic bias coil; magnetic permeability; microwave far-field radiation; microwave impedance control; near ferrimagnetic resonance; permanent magnet; reflection measurement; resonant mode; Coaxial cables; Coils; DC generators; Ferrimagnetic materials; Ferrites; Impedance; Magnetic fields; Magnetic resonance; Permanent magnets; Permeability; Ferrite device; impedance control; magnetic permeability; reflection measurement;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.843339
